#!/bin/sh

set -e
# for debugging
[ -n "$DEBUG" ] && set -x

IMGFILE=$PWD/disk.img


# we want everything except the final result to stderr
( exec 1>&2;

ESP_FILE=$PWD/boot.img



# get the GRUB2 boot file name
ARCH=${TARGETARCH:-`uname -m`}
case $ARCH in
x86_64)
  BOOTFILE=BOOTX64.EFI
  ;;
aarch64)
  BOOTFILE=BOOTAA64.EFI
  ;;
esac

mkdir -p /tmp/efi
cd /tmp/efi

# input is a tarball on stdin with kernel and cmdline in /boot
# output is an iso on stdout

# extract. BSD tar auto recognises compression, unlike GNU tar
# only if stdin is a tty, if so need files volume mounted...
[ -t 0 ] || bsdtar xzf -

INITRD="$(find . -name '*.img')"
KERNEL="./kernel"
CMDLINE_FILE="$(find . -name cmdline)"
CMDLINE="$(cat $CMDLINE_FILE )"

# PARTUUID for root
PARTUUID=$(cat /proc/sys/kernel/random/uuid)

cp /usr/local/share/$BOOTFILE .

mkdir -p EFI/BOOT
cat >> EFI/BOOT/grub.cfg <<EOF
set timeout=0
set gfxpayload=text
menuentry 'LinuxKit ISO Image' {
	linux /kernel ${CMDLINE} text
  initrd /initrd.img
}
EOF

#
# calculate sizes
KERNEL_FILE_SIZE=$(stat -c %s "$KERNEL")
INITRD_FILE_SIZE=$(stat -c %s "$INITRD")
EFI_FILE_SIZE=$(stat -c %s "$BOOTFILE")
# minimum headroom needed in ESP, in bytes
# 511KiB headroom seems to be enough
ESP_HEADROOM=$(( 1024 * 1024 ))

# this is the minimum size of our EFI System Partition
ESP_FILE_SIZE=$(( $KERNEL_FILE_SIZE + $INITRD_FILE_SIZE + $EFI_FILE_SIZE + $ESP_HEADROOM ))

# (x+1024)/1024*1024 rounds up to multiple of 1024KB, or 2048 sectors
# some firmwares get confused if the partitions are not aligned on 2048 blocks
# we will round up to the nearest multiple of 2048 blocks
# since each block is 512 bytes, we want the size to be a multiple of
# 2048 blocks * 512 bytes = 1048576 bytes = 1024KB
ESP_FILE_SIZE_KB=$(( ( ( ($ESP_FILE_SIZE+1024-1) / 1024 ) + 1024-1) / 1024 * 1024 ))
# and for sectors
ESP_FILE_SIZE_SECTORS=$(( $ESP_FILE_SIZE_KB * 2 ))

# create a raw disk with an EFI boot partition
# Stuff it into a FAT filesystem, making it as small as possible.
mkfs.vfat -v -C $ESP_FILE $(( $ESP_FILE_SIZE_KB )) > /dev/null
echo "mtools_skip_check=1" >> /etc/mtools.conf && \
mmd -i $ESP_FILE ::/EFI
mmd -i $ESP_FILE ::/EFI/BOOT
mcopy -i $ESP_FILE $BOOTFILE ::/EFI/BOOT/
mcopy -i $ESP_FILE EFI/BOOT/grub.cfg ::/EFI/BOOT/
mcopy -i $ESP_FILE $KERNEL ::/
mcopy -i $ESP_FILE $INITRD ::/


# now make our actual filesystem image
# how big an image do we want?
# it should be the size of our ESP file+1MB for BIOS boot + 1MB for MBR + 1MB for GPT
ONEMB=$(( 1024 * 1024 ))
SIZE_IN_BYTES=$(( $(stat -c %s "$ESP_FILE") + 4*$ONEMB ))

# and make sure the ESP is bootable for BIOS mode
# settings
BLKSIZE=512
MB_BLOCKS=$(( $SIZE_IN_BYTES / $ONEMB ))

# make the image
dd if=/dev/zero of=$IMGFILE bs=1M count=$MB_BLOCKS

ESP_SECTOR_START=2048
ESP_SECTOR_END=$(( $ESP_SECTOR_START + $ESP_FILE_SIZE_SECTORS - 1 ))

# create the partitions - size of the ESP must match our image
# and make sure the ESP is bootable for BIOS mode
sgdisk --clear \
    --new 1:$ESP_SECTOR_START:$ESP_SECTOR_END --typecode=1:ef00 --change-name=1:'EFI System' --partition-guid=1:$PARTUUID \
    --attributes 1:set:2 \
     $IMGFILE

# copy in our EFI System Partition image
dd if=$ESP_FILE of=$IMGFILE bs=$BLKSIZE count=$ESP_FILE_SIZE_SECTORS conv=notrunc seek=$ESP_SECTOR_START

qemu-img convert -q -f raw -O qcow2 $IMGFILE $IMGFILE.qcow2

)

cat $IMGFILE.qcow2
